Better than your traditional blower
In a typical wastewater treatment plant, the blowers in an aeration system are the single highest energy consumer; however the most common established blower technologies are inefficient. Additionally they can be maintenance intensive and complicated to install and operate. The Sanitaire TurboMAX turbo blower - a direct-driven, high-speed, turbo blower using the latest air foil bearing technology - has a long lifetime and low maintenance requirements. TurboMAX blowers also feature real-time flow measurement with a Venturi-type flow meter at the suction side bell mouth with an accuracy of +-3%. The integrated air flow meter means there’s no need for separate, costly air flow meters.
What is a high speed turbo blower?
A turbo blower produces compressed air with an impeller rotating at high speed. Traditionally, turbo blowers have been using standard motors, gears to reach the high turbo speeds - adding complexity and maintenance- intensive parts for controlling air flows with guide vanes. High speed turbo blowers use a direct-coupled impeller that is directly connected to a permanent magnet synchronous motor operated by a variable frequency drive (VFD) for reaching higher speeds and at the same time enabling flow control. The Sanitaire TurboMAX turbo blower uses this technology. It's a single stage, centrifugal-type turbo blower consisting of state-of-the-art bump type air bearings, a high precision, aluminum alloy impeller, a high-speed permanent magnet motor, an inverter VFD, a premium controller, and an air cooling system for the majority of sizes.
Used mainly in activated sludge plants, in both municipal and industrial wastewater, the Sanitaire TurboMAX turbo blower range covers 13 different blower sizes (15-600 kW) and flow rates of 700 to 41,000 m3/hr per blower, satisfying oxygen demands for plants 5,000 to 1.5 M PE and above. This wide range of models allows for more flexibility in designing a system to more accurately meet your needs without over or under-sizing the blowers.